Please use this identifier to cite or link to this item: https://www.um.edu.mt/library/oar/handle/123456789/98562
Title: Modular transcriptional networks of the host pulmonary response during early and late pneumococcal pneumonia
Authors: Scicluna, Brendon P.
Lieshout, Miriam H. van
Blok, Dana C.
Florquin, Sandrine
Poll, Tom van der
Keywords: Genetic regulation
Interleukin-17
Lipids -- Metabolism
Pneumonia, Pneumococcal
Cellular signal transduction -- Research
Streptococcus pneumoniae
Issue Date: 2015
Publisher: BioMed Central Ltd.
Citation: Scicluna, B. P., van Lieshout, M. H., Blok, D. C., Florquin, S., & van der Poll, T. (2015). Modular transcriptional networks of the host pulmonary response during early and late pneumococcal pneumonia. Molecular Medicine, 21(1), 430-441.
Abstract: Streptococcus pneumoniae (Spneu) remains the most lethal bacterial pathogen and the dominant agent of community-acquired pneumonia. Treatment has perennially focused on the use of antibiotics, albeit scrutinized due to the occurrence of antibiotic-resistant Spneu strains. Immunomodulatory strategies have emerged as potential treatment options. Although promising, immunomodulation can lead to improper tissue functions either at steady state or upon infectious challenge. This argues for the availability of tools to enable a detailed assessment of whole pulmonary functions during the course of infection, not only those functions biased to the defense response. Thus, through the use of an unbiased tissue microarray and bioinformatics approach, we aimed to construct a comprehensive map of whole-lung transcriptional activity and cellular pathways during the course of pneumococcal pneumonia. We performed genome-wide transcriptional analysis of whole lungs before and 6 and 48 h after Spneu infection in mice. The 4,000 most variable transcripts across all samples were used to assemble a gene coexpression network comprising 13 intercorrelating modules (clusters of genes). Fifty-four percent of this whole-lung transcriptional network was altered 6 and 48 h after Spneu infection. Canonical signaling pathway analysis uncovered known pathways imparting protection, including IL17A/IL17F signaling and previously undetected mechanisms that included lipid metabolism. Through in silico prediction of cell types, pathways were observed to enrich for distinct cell types such as a novel stromal cell lipid metabolism pathway. These cellular mechanisms were furthermore anchored at functional hub genes of cellular fate, differentiation, growth and transcription. Collectively, we provide a benchmark unsupervised map of whole-lung transcriptional relationships and cellular activity during early and late pneumococcal pneumonia.
URI: https://www.um.edu.mt/library/oar/handle/123456789/98562
Appears in Collections:Scholarly Works - FacHScABS

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